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Paper detail

Squeezed light from a levitated nanoparticle at room temperature

Quantum measurements of mechanical systems can produce optical squeezing via ponderomotive forces. Its observation requires high environmental isolation and efficient detection, typically achieved by using optical cavities and cryogenic cooling. Here we realize these conditions by measuring the position of an optically levitated nanoparticle at room temperature and without the overhead of an optical cavity. We use a fast heterodyne detection to reconstruct simultaneously orthogonal optical quadratures, and observe a noise reduction of $9\%\pm0.5\%$ below shot noise. Our experiment offers a novel, cavity-less platform for squeezed-light enhanced sensing. At the same time it delineates a clear and simple strategy towards observation of stationary optomechanical entanglement.

preprint2022arXivOpen access
Lorenzo MagriniVictor A. Camarena-ChávezConstanze BachAisling JohnsonMarkus Aspelmeyer
physics.opticsquant-ph
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Lorenzo MagriniVictor A. Camarena-ChávezConstanze BachAisling JohnsonMarkus Aspelmeyer

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